PhD Chemical Engineering Job

TERI,The Energy and Resources Institute inviting Chemical engineering candidates for PhD Chemical Engineering Job. Interested and qualified candidates can apply now.

Role – Research Associate

Location -TERI-Gram

Job Profile

The candidate will work on a Government of India funded project on Bio-oil upgradation and cracking via thermochemical routes. The RA will be required to work in pilot Pyrolysis and High pressure Reactors using bio-oil from biomass, waste and lipids.
The candidate must have 2-3 year of strong research experience in catalyst synthesis and catalytic thermochemical conversion/cracking of bio-oil, handling pilot high pressure reactors.

Experience –2 – 3 Years

Qualification – PhD in Chemical Engg/Organic chemistry/ Energy Science and Engg/ / Petrochemical Engg/Or Masters (MTech/ME) in Chemical Engg/ Organic chemistry/Energy Science and Technology/ Petrochemical Engg with 2-3 years of Research experience in the area of heterogeneous catalyst- Biofuel (thermochemical route)- Pilot plant operation and analysis of products are desirable. Knowledge of the Pyrolysis process and gasification techniques is preferred.

SkillsProven research experience in the field of thermo-chemical conversion
processes especially biomass catalytic conversion- pyrolysis- gasification-
Hydrothermal conversion- with a significant contribution to R&D programs
as an RA with outstand

Salary – As per DST/Government norms for RA


; Please apply latest by September 23, 2023


Greetings, everyone! We’d like to offer you a selection of interview questions and corresponding answers to help you prepare thoroughly for your upcoming interview for the PhD Chemical Engineering Job. Utilize these resources to enhance your readiness and excel during your interview for the PhD Chemical Engineering Job.

1. Can you describe your experience with catalyst synthesis and catalytic thermochemical conversion of bio-oil?

Answer: Certainly. I hold a Ph.D. in Chemical Engineering, and my research has primarily focused on heterogeneous catalysts and their application in the thermochemical conversion of bio-oil. During my doctoral studies, I conducted extensive experiments involving the synthesis of catalysts tailored for bio-oil upgrading and subsequent testing in high-pressure reactors. I have a strong background in optimizing catalytic processes to enhance the yield and quality of biofuel products.

2. Could you provide an example of a challenging project you’ve worked on related to bio-oil upgradation and cracking, and how you overcame obstacles during the research?

Answer: Of course. In a previous project, we aimed to develop a novel catalyst for improving the efficiency of bio-oil upgradation. We encountered challenges related to catalyst stability and selectivity. To overcome this, I collaborated closely with colleagues to conduct thorough characterization of the catalyst, identified key issues, and made necessary modifications. Our persistence and teamwork eventually led to a successful catalyst design that significantly enhanced the conversion of bio-oil.

3. What experience do you have with pilot high-pressure reactors, and can you describe your approach to handling them safely?

Answer: During my research, I have gained hands-on experience with pilot high-pressure reactors for conducting experiments involving bio-oil. Safety is paramount in such operations. I always adhere to established safety protocols, which include regular equipment inspections, proper training, and wearing appropriate personal protective equipment. Additionally, I am well-versed in emergency response procedures and have a track record of conducting experiments safely.

4. How familiar are you with the pyrolysis process and gasification techniques, and how have you applied this knowledge in your previous research?

Answer: I have a strong familiarity with both pyrolysis and gasification techniques, which are essential processes in bio-oil conversion. In my previous research, I utilized this knowledge to optimize reaction conditions and catalysts for efficient bio-oil conversion. This included understanding the thermodynamics and kinetics of pyrolysis and gasification reactions, enabling me to make informed decisions on reactor design and operating parameters.

5. Could you provide an example of a significant contribution you’ve made to a research and development program as a Research Associate?

Answer: Certainly. In a previous role as a Research Associate, I played a key role in developing a novel catalyst for the thermochemical conversion of biomass into biofuels. My contribution involved designing experiments, analyzing data, and making critical recommendations for catalyst improvements. As a result of my work, our team achieved a substantial increase in biofuel yield, which not only contributed to the project’s success but also garnered recognition from our research partners.


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